On Wed, Jul 22, 2020 at 10:52:26PM +0800, Kairui Song wrote: > On Fri, Mar 6, 2020 at 5:38 PM Baoquan He <bhe@xxxxxxxxxx> wrote: > > On 03/04/20 at 08:53pm, Deepa Dinamani wrote: > > > On Wed, Mar 4, 2020 at 7:53 PM Baoquan He <bhe@xxxxxxxxxx> wrote: > > > > On 03/03/20 at 01:01pm, Deepa Dinamani wrote: > > > > > I looked at this some more. Looks like we do not clear irqs > > > > > when we do a kexec reboot. And, the bootup code maintains > > > > > the same table for the kexec-ed kernel. I'm looking at the > > > > > following code in > > > > > > > > I guess you are talking about kdump reboot here, right? Kexec > > > > and kdump boot take the similar mechanism, but differ a > > > > little. > > > > > > Right I meant kdump kernel here. And, clearly the > > > is_kdump_kernel() case below. > > > > > > > > intel_irq_remapping.c: > > > > > > > > > > if (ir_pre_enabled(iommu)) { > > > > > if (!is_kdump_kernel()) { > > > > > pr_warn("IRQ remapping was enabled on %s but > > > > > we are not in kdump mode\n", > > > > > iommu->name); > > > > > clear_ir_pre_enabled(iommu); > > > > > iommu_disable_irq_remapping(iommu); > > > > > } else if (iommu_load_old_irte(iommu)) > > > > > > > > Here, it's for kdump kernel to copy old ir table from 1st kernel. > > > > > > Correct. > > > > > > > > pr_err("Failed to copy IR table for %s from > > > > > previous kernel\n", > > > > > iommu->name); > > > > > else > > > > > pr_info("Copied IR table for %s from previous kernel\n", > > > > > iommu->name); > > > > > } > > > > > > > > > > Would cleaning the interrupts(like in the non kdump path > > > > > above) just before shutdown help here? This should clear the > > > > > interrupts enabled for all the devices in the current > > > > > kernel. So when kdump kernel starts, it starts clean. This > > > > > should probably help block out the interrupts from a device > > > > > that does not have a driver. > > > > > > > > I think stopping those devices out of control from continue > > > > sending interrupts is a good idea. While not sure if only > > > > clearing the interrupt will be enough. Those devices which > > > > will be initialized by their driver will brake, but devices > > > > which drivers are not loaded into kdump kernel may continue > > > > acting. Even though interrupts are cleaning at this time, the > > > > on-flight DMA could continue triggerring interrupt since the > > > > ir table and iopage table are rebuilt. > > > > > > This should be handled by the IOMMU, right? And, hence you are > > > getting UR. This seems like the correct execution flow to me. > > > > Sorry for late reply. > > Yes, this is initializing IOMMU device. > > > > > Anyway, you could just test this theory by removing the > > > is_kdump_kernel() check above and see if it solves your problem. > > > Obviously, check the VT-d spec to figure out the exact sequence to > > > turn off the IR. > > > > OK, I will talk to Kairui and get a machine to test it. Thanks for your > > nice idea, if you have a draft patch, we are happy to test it. > > > > > Note that the device that is causing the problem here is a legit > > > device. We want to have interrupts from devices we don't know about > > > blocked anyway because we can have compromised firmware/ devices that > > > could cause a DoS attack. So blocking the unwanted interrupts seems > > > like the right thing to do here. > > > > Kairui said it's a device which driver is not loaded in kdump kernel > > because it's not needed by kdump. We try to only load kernel modules > > which are needed, e.g one device is the dump target, its driver has to > > be loaded in. In this case, the device is more like a out of control > > device to kdump kernel. > > Hi Bao, Deepa, sorry for this very late response. The test machine was > not available for sometime, and I restarted to work on this problem. > > For the workaround mention by Deepa (by remote the is_kdump_kernel() > check), it didn't work, the machine still hangs upon shutdown. > The devices that were left in an unknown state and sending interrupt > could be a problem, but it's irrelevant to this hanging problem. > > I think I didn't make one thing clear, The PCI UR error never arrives > in kernel, it's the iLo BMC on that HPE machine caught the error, and > send kernel an NMI. kernel is panicked by NMI, I'm still trying to > figure out why the NMI hanged kernel, even with panic=-1, > panic_on_io_nmi, panic_on_unknown_nmi all set. But if we can avoid the > NMI by shutdown the devices in right order, that's also a solution. I'm not sure how much sympathy to have for this situation. A PCIe UR is fatal for the transaction and maybe even the device, but from the overall system point of view, it *should* be a recoverable error and we shouldn't panic. Errors like that should be reported via the normal AER or ACPI/APEI mechanisms. It sounds like in this case, the platform has decided these aren't enough and it is trying to force a reboot? If this is "special" platform behavior, I'm not sure how much we need to cater for it. Bjorn